Attachment rfr study.pdf

This document pretains to SES-LIC-20120906-00797 for License on a Satellite Earth Station filing.

IBFS_SESLIC2012090600797_964822

Unit 31 Productions LLC Temporary Fixed Earth Station TECHNICAL STATEMENT OF RYAN WILHOUR OF THE FIRM OF KESSLER AND GEHMAN ASSOCIATES, INC., CONSULTING ENGINEERS IN CONNECTION WITH A RADIO FREQUENCY RADIATION ANALYSIS OF NON-IONIZING RADIATION FOR A 1.5 METER TEMPORARY FIXED Ku-BAND SATELLITE EARTH STATION MOBILE VAN Preface This report analyzes the non-ionizing radiation levels for a 1.5 meter temporary fixed Ku-Band earth station dish mounted on the roof of a mobile van. The Office of Science and Technology Bulletin, No. 65, August 1997, specifies that the maximum level of non-ionizing radiation that a person may be exposed to over a six-minute period is an average power density equal to 5 mW/cm2 (five milliwatts per square centimeter). It is the purpose of this report to determine the power flux densities of the earth station in the far field, near field, transition region between the feed and reflector surface, at the reflector surface, and between the antenna edge and the ground. RFR Analysis The following parameters were used to calculate the various power flux densities for this earth station: Effective Antenna diameter: 1.5 meters Antenna surface area: 1.77 meters2 Feed flange size: 4.0 centimeters Area of feed flange: 12.57 centimeters2 Wavelength at 14.0 GHz: 2.1 centimeters Transmit power at flange: 80 Watts Antenna gain: 45.5 dBi at 14.275 GHz Antenna aperture efficiency: 0.68 On Axis Far Field Calculations - The distance to the beginning of the far field region is 63.0 meters. The maximum main beam power density in the far field is 5.69 mW/cm2 which is 113.77% of the maximum allowable exposure level. On Axis Near Field Calculations - The distance to the end of the near field is 26.26 meters. The maximum power density in the near field is 12.31 mW/cm2 which is 246.27% of the maximum allowable exposure level. Page 1 Radiation Hazard Study

Unit 31 Productions LLC Temporary Fixed Earth Station Transition Region Calculations - The maximum power density in the transition region will not exceed that calculated for the near field region. The power density in the near field region, as shown above, will not exceed 12.31mW/cm2 which is 246.27% of the maximum allowable exposure level. Main Reflector Region - The power density in the main reflector region is 9.05mW/cm2 which is 181.08% of the maximum allowable exposure level. Region between Reflector and Ground - The power density between the reflector and ground is 4.53mW/cm2 which is 90.54% of the maximum allowable exposure level. Conclusion Based on the calculations above, it is concluded that harmful levels of radiation will exist in the on- axis near and far field, transition region, and main reflector region. However, the following facts exist, and the operational specifications below will be observed by the applicant during operation to ensure that the potential for human exposure to harmful radiation levels will be mitigated:  The proposed earth station dish will be located on the roof of a mobile truck such that the bottom of the antenna will be greater than six feet above the ground level.  The applicant will purchase and operate an RF radiation meter in order to determine a safe temporary boundary in order to keep the general public away from harmful levels of radiation. Ropes and signs, at a minimum, will be used to warn persons of the existence of the radiation within the measured safety boundary.  Access to the satellite truck roof will be restricted while the earth station is in operation.  Radiation hazard signs will be posted around the base of the vehicle.  The transmitter will be turned off during antenna maintenance or when not aimed at an approved geostationary satellite. It is understood that the applicant’s responsibility to ensure that the public and operating personal are not exposed to harmful levels of radiation. CERTIFICATION The foregoing statement and the report regarding the aforementioned engineering work are true and correct to the best of my knowledge. Executed on August 29, 2012. Ryan Wilhour Consulting Engineer Page 2 Radiation Hazard Study


Document Created: 2012-08-29 16:28:55
Document Modified: 2012-08-29 16:28:55
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